104 lines
3.9 KiB
C++
104 lines
3.9 KiB
C++
#include "tap.hpp"
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#include "point.hpp"
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#include "vector.hpp"
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#include "coord/iostream.hpp"
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int
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main (void)
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{
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static_assert (sizeof (util::point1u) == 1 * sizeof (util::point1u::value_type), "point1u is not packed");
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static_assert (sizeof (util::point2u) == 2 * sizeof (util::point2u::value_type), "point2u is not packed");
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static_assert (sizeof (util::point3u) == 3 * sizeof (util::point3u::value_type), "point3u is not packed");
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static_assert (sizeof (util::point4u) == 4 * sizeof (util::point4u::value_type), "point4u is not packed");
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static_assert (sizeof (util::point1f) == 1 * sizeof (util::point1f::value_type), "point1f is not packed");
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static_assert (sizeof (util::point2f) == 2 * sizeof (util::point2f::value_type), "point2f is not packed");
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static_assert (sizeof (util::point3f) == 3 * sizeof (util::point3f::value_type), "point3f is not packed");
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static_assert (sizeof (util::point4f) == 4 * sizeof (util::point4f::value_type), "point4f is not packed");
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util::TAP::logger tap;
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constexpr util::point2i p { -1, 2 };
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tap.expect_eq (-p, util::point2i { 1, -2 }, "unary point negation");
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tap.expect_eq ( p, p, "unary point addition");
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tap.expect (
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std::is_same<
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bool,
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decltype(!p)::value_type
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>::value,
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"unary point boolean negation has type bool"
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);
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auto vec = util::vector4f (0.5f);
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tap.expect_eq (vec, util::normalised (vec), "normalisation of normalised vector");
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tap.expect_eq (sum (util::vector4f::ones ()), 4.f, "elementwise summation");
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// check that structured bindings work
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{
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const auto &[x,y] = p;
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tap.expect (x == p.x && y == p.y, "structured bindings extract correct data");
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}
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// ensure the distance function behaves correctly with non-normal numbers.
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{
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util::point3f a { 103, 0, 14 };
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util::point3f b { 104, INFINITY, 15 };
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tap.expect_eq (
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std::numeric_limits<float>::infinity (),
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::util::distance (a, b),
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"distance with an infinity is infinite"
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);
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}
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// test expected outputs for various logical operations
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{
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constexpr util::point3i a { 0, -1, 2 };
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constexpr util::point3i b { 0, 1, -2 };
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constexpr util::point3i c { -9, -9, -9 };
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tap.expect (!all (a <= b), "all, expected failure");
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tap.expect ( all (a <= a), "all, expected success");
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tap.expect (!any (a <= c), "any, expected failure");
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tap.expect ( any (a <= b), "any, expected success");
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};
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// ensure the util::select function behaves as expected
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{
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const util::point3f a { -1, 2, 0 };
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const util::point3f b { 1, 0, 2 };
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const util::point3f lo { -1, 0, 0 };
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const util::point3f hi { 1, 2, 2 };
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tap.expect_eq (select (a < b, a, b), lo, "select with points and min");
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tap.expect_eq (select (a > b, a, b), hi, "select with points and max");
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};
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// ensure that util::limit resolves to the coord overload. the exact
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// values are less useful than exercising the compiler/linker.
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{
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const util::vector3f val { 0, -1, 2 };
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const util::vector3f lo { -1, 1, -2 };
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const util::vector3f hi { 1, 2, 0 };
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tap.expect_eq (limit (val, lo, hi), util::vector3f { 0, 1, 0 }, "limit with vec/vec/vec");
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tap.expect_eq (limit (val, 0.f, hi), util::vector3f { 0, 0, 0 }, "limit with vec/num/vec");
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tap.expect_eq (limit (val, lo, 2.f), util::vector3f { 0, 1, 2 }, "limit with vec/vec/num");
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tap.expect_eq (limit (val, 0.f, 2.f), util::vector3f { 0, 0, 2 }, "limit with vec/num/num");
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}
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// ensure that klass::indices appears to link correctly
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{
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const util::vector3i seq { 0, 1, 2 };
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const util::vector4i res { 2, 0, 0, 1 };
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tap.expect_eq (seq.indices<2,0,0,1> (), res, "coord::indices expansion");
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};
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return tap.status ();
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}
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